Miyakogusa Predicted Gene
- Lj0g3v0249499.1
BLASTP 2.2.25 [Feb-01-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= Lj0g3v0249499.1 Non Chatacterized Hit- tr|B9RRG2|B9RRG2_RICCO
Putative uncharacterized protein OS=Ricinus communis
G,42.71,0.0000000008,seg,NULL; SUBFAMILY NOT NAMED,NULL; FAMILY NOT
NAMED,NULL,NODE_63287_length_1309_cov_65.424751.path2.1
(305 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma06g16220.1 492 e-139
Glyma06g16220.2 491 e-139
Glyma08g00410.1 429 e-120
Glyma05g32750.1 427 e-120
>Glyma06g16220.1
Length = 632
Score = 492 bits (1267), Expect = e-139, Method: Compositional matrix adjust.
Identities = 238/304 (78%), Positives = 257/304 (84%), Gaps = 1/304 (0%)
Query: 1 MDDIRPSLDGSSAVPNSLPEEDGLTQCIKKKSLRGYVWNSFKQILGRSNSSKGSHLVSKK 60
+DD+R S D S ++ + LPEEDG TQCIK+K RGYVWN KQILGRSN+ S LV+KK
Sbjct: 323 LDDVRASFDRSRSISHPLPEEDGHTQCIKRKGFRGYVWNGIKQILGRSNTMNASPLVAKK 382
Query: 61 LTSSSEIRHARLQEFLRPSNIIRLSLNASTVKLSSYRAWPNMHDSRFALYKLPLRVARAD 120
TS+ EIR ARLQEFLR S+ +RL L ASTVKLSSYRAWPNMHDSRFALYKLPLRV + D
Sbjct: 383 HTSNGEIRQARLQEFLRSSDTVRLMLKASTVKLSSYRAWPNMHDSRFALYKLPLRVPKDD 442
Query: 121 QEFAGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEEFQGQQLLIGTKILEGTHYVLHPNG 180
QE+AGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEEFQGQQLLI TKILEGTHYVLHPNG
Sbjct: 443 QEYAGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEEFQGQQLLIATKILEGTHYVLHPNG 502
Query: 181 SAMFIVNINDPSSEPFPWDTDADSYPVNIEHSFVGEGIASGYGFRYPGSKPGSLFVFQNG 240
SAMF NINDPSSEPFPWDTDADS PVNI+ +FVGEGIASGYGFRYPGSKPGSLFV +NG
Sbjct: 503 SAMFTANINDPSSEPFPWDTDADSVPVNIKQAFVGEGIASGYGFRYPGSKPGSLFVLENG 562
Query: 241 VIAFTWKESRAVXXXXXXXXXXXXKKGERIPSLPPVANFSYLTKSYSNVFAGFPSSSN-C 299
++AF WKESRAV KKGER+PSLPPV NFSYLTKSYSNVFAGFPSSSN
Sbjct: 563 ILAFIWKESRAVLNLQRLNLQELLKKGERVPSLPPVTNFSYLTKSYSNVFAGFPSSSNFL 622
Query: 300 YSPR 303
SPR
Sbjct: 623 SSPR 626
>Glyma06g16220.2
Length = 630
Score = 491 bits (1265), Expect = e-139, Method: Compositional matrix adjust.
Identities = 238/306 (77%), Positives = 257/306 (83%), Gaps = 1/306 (0%)
Query: 1 MDDIRPSLDGSSAVPNSLPEEDGLTQCIKKKSLRGYVWNSFKQILGRSNSSKGSHLVSKK 60
+DD+R S D S ++ + LPEEDG TQCIK+K RGYVWN KQILGRSN+ S LV+KK
Sbjct: 323 LDDVRASFDRSRSISHPLPEEDGHTQCIKRKGFRGYVWNGIKQILGRSNTMNASPLVAKK 382
Query: 61 LTSSSEIRHARLQEFLRPSNIIRLSLNASTVKLSSYRAWPNMHDSRFALYKLPLRVARAD 120
TS+ EIR ARLQEFLR S+ +RL L ASTVKLSSYRAWPNMHDSRFALYKLPLRV + D
Sbjct: 383 HTSNGEIRQARLQEFLRSSDTVRLMLKASTVKLSSYRAWPNMHDSRFALYKLPLRVPKDD 442
Query: 121 QEFAGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEEFQGQQLLIGTKILEGTHYVLHPNG 180
QE+AGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEEFQGQQLLI TKILEGTHYVLHPNG
Sbjct: 443 QEYAGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEEFQGQQLLIATKILEGTHYVLHPNG 502
Query: 181 SAMFIVNINDPSSEPFPWDTDADSYPVNIEHSFVGEGIASGYGFRYPGSKPGSLFVFQNG 240
SAMF NINDPSSEPFPWDTDADS PVNI+ +FVGEGIASGYGFRYPGSKPGSLFV +NG
Sbjct: 503 SAMFTANINDPSSEPFPWDTDADSVPVNIKQAFVGEGIASGYGFRYPGSKPGSLFVLENG 562
Query: 241 VIAFTWKESRAVXXXXXXXXXXXXKKGERIPSLPPVANFSYLTKSYSNVFAGFPSSSN-C 299
++AF WKESRAV KKGER+PSLPPV NFSYLTKSYSNVFAGFPSSSN
Sbjct: 563 ILAFIWKESRAVLNLQRLNLQELLKKGERVPSLPPVTNFSYLTKSYSNVFAGFPSSSNFL 622
Query: 300 YSPRKG 305
SPR
Sbjct: 623 SSPRNA 628
>Glyma08g00410.1
Length = 621
Score = 429 bits (1104), Expect = e-120, Method: Compositional matrix adjust.
Identities = 212/302 (70%), Positives = 245/302 (81%), Gaps = 1/302 (0%)
Query: 1 MDDIRPSLDGSSAVPNSLPEEDGLTQCIKKKSLRGYVWNSFKQILGRSNSSKGSHLVSKK 60
+DDIR S + S + + L +EDG TQ KKKSL GY+W SFKQI+GRS+S SH + KK
Sbjct: 318 LDDIRKSCNWSKDISDLLSKEDGHTQFTKKKSLGGYLWGSFKQIVGRSSSINESHAIFKK 377
Query: 61 LTSSSEIRHARLQEFLRPSNIIRLSLNASTVKLSSYRAWPNMHDSRFALYKLPLRVARAD 120
LT+ EI+HARL++FLR S+ I LSL ASTVKLSSYRAWPNM D+ FALYK+PL+V AD
Sbjct: 378 LTTRREIKHARLEDFLRSSDAIELSLKASTVKLSSYRAWPNMPDTWFALYKMPLQVPSAD 437
Query: 121 QEFAGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEEFQGQQLLIGTKILEGTHYVLHPNG 180
Q +AGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEE Q QQLLI TKILEGTHY LHPNG
Sbjct: 438 QIYAGLWGGTFGWPPGKPSEDKPGKALFFLLLSYEESQEQQLLIATKILEGTHYGLHPNG 497
Query: 181 SAMFIVNINDPSSEPFPWDTDADSYPVNIEHSFVGEGIASGYGFRYPGSKPGSLFVFQNG 240
SAMFIV++N+PSS+PFPWD + DS V+I+H F GEGI++GYGFRYPGSKPGSLFVFQNG
Sbjct: 498 SAMFIVDVNEPSSDPFPWDINKDSLSVDIKHVFTGEGISNGYGFRYPGSKPGSLFVFQNG 557
Query: 241 VIAFTWKESRAVXXXXXXXXXXXXKKGERIPSLPPVANFSYLTKSYSNVFAGFPSSSNCY 300
V+AF WK++RAV KKGERIPSLPP+ NFSYLTKSYSNVF GFP +S +
Sbjct: 558 VLAFVWKDTRAVLTLQRLDLQDLLKKGERIPSLPPINNFSYLTKSYSNVFTGFPGAST-W 616
Query: 301 SP 302
SP
Sbjct: 617 SP 618
>Glyma05g32750.1
Length = 538
Score = 427 bits (1098), Expect = e-120, Method: Compositional matrix adjust.
Identities = 207/295 (70%), Positives = 238/295 (80%), Gaps = 3/295 (1%)
Query: 10 GSSAVPNSLPEEDGLTQCIKKKSLRGYVWNSFKQILGRSNSSKGSHLVSKKLTSSSEIRH 69
GS + N EEDG QC KKK L GY+W SFKQI+GRS+S SH + +KLT+ EI+H
Sbjct: 246 GSGQIDNE--EEDGHIQCTKKKCLGGYLWGSFKQIVGRSSSINESHTIFRKLTARREIKH 303
Query: 70 ARLQEFLRPSNIIRLSLNASTVKLSSYRAWPNMHDSRFALYKLPLRVARADQEFAGLWGG 129
ARL++FLR S+ I LSL ASTVKLSSYRAWPNM D+ FALYK+PLRV ADQ + GLWGG
Sbjct: 304 ARLEDFLRSSDAIGLSLKASTVKLSSYRAWPNMPDTWFALYKMPLRVPSADQIYVGLWGG 363
Query: 130 TFGWPPGKPSEDKPGKALFFLLLSYEEFQGQQLLIGTKILEGTHYVLHPNGSAMFIVNIN 189
TFGWPPG PSEDKPGKALFFLLLSYEE Q Q+LLI TKILEGTHYVLHPNGSAMFIV++N
Sbjct: 364 TFGWPPGIPSEDKPGKALFFLLLSYEESQEQKLLIATKILEGTHYVLHPNGSAMFIVDVN 423
Query: 190 DPSSEPFPWDTDADSYPVNIEHSFVGEGIASGYGFRYPGSKPGSLFVFQNGVIAFTWKES 249
PSS+PFPWDT+ DS+ V+I HSF GEGI++GYGFRYPGSKPG+LFVFQNG++AF WK++
Sbjct: 424 QPSSDPFPWDTNKDSFSVDITHSFTGEGISNGYGFRYPGSKPGTLFVFQNGILAFVWKDT 483
Query: 250 RAVXXXXXXXXXXXXKKGERIPSLPPVANFSYLTKSYSNVFAGFPSSSNCY-SPR 303
RAV KKGER+PSLPP+ NFSYLTKSYSNVF GFP +S C SPR
Sbjct: 484 RAVLTLQRLDLQDILKKGERVPSLPPINNFSYLTKSYSNVFTGFPGASTCLPSPR 538